Wholesale Sonicator Ultrasonic for Nano Graphene & CBD
Product Main Parameters
| Model | Frequency | Power | Voltage | Pressure | Sound Intensity | Material of Probe |
|---|---|---|---|---|---|---|
| H-UH20-1000S | 20KHz | 1000W | 220V | Normal | >10 W/cm² | Titanium Alloy |
| H-UH20-1000 | 20KHz | 1000W | 220V | Normal | >10 W/cm² | Titanium Alloy |
| H-UH20-2000 | 20KHz | 2000W | 220V | 35 MPa | >40 W/cm² | Titanium Alloy |
| H-UH20-3000 | 20KHz | 3000W | 220V | 35 MPa | >60 W/cm² | Titanium Alloy |
| H-UH20-3000Z | 20KHz | 3000W | 220V | 35 MPa | >60 W/cm² | Titanium Alloy |
Common Product Specifications
| Sound Intensity | Generator |
|---|---|
| >10 W/cm² to >60 W/cm² | Digital type |
Product Manufacturing Process
The manufacturing process of a sonicator ultrasonic processor involves several precise steps to ensure high performance and durability... (Refer to authoritative papers for detailed procedure). As concluded from industry studies, the integration of digital frequency searching and titanium alloy probes ensures stable and efficient operation, making them ideal for various industrial applications.
Product Application Scenarios
Sonicator ultrasonic processors are extensively used in various fields such as biotechnology for cell disruption and molecular extraction, as well as in material science for nano-dispersion... (Refer to authoritative papers for specific use cases). The adaptability and scalability of these devices enable consistent performance across laboratory and industrial scales.
Product After-Sales Service
We offer comprehensive after-sales support including maintenance, troubleshooting, and component replacement to ensure continuous operation of your sonicator ultrasonic device.
Product Transportation
Our products are packaged using robust materials to ensure they reach you in perfect condition. Shipping is available worldwide, with options for air and sea freight.
Product Advantages
- High-quality Titanium Alloy probes suitable for diverse industries.
- Wide range of power settings for various applications.
- Stable digital frequency adjustment for optimal performance.
Product FAQ
- What is the main application of this sonicator ultrasonic? These are primarily used for nano-scale dispersion and cellular extraction processes, ideal for laboratories and industrial production.
- Is customization available? Yes, we offer custom sizes and configurations to meet specific operational requirements.
- What materials are used in the construction of the sonicator ultrasonic? The probes are made from high-quality Titanium Alloy for durability and efficiency.
- Can this device be used in the food industry? Yes, our devices are suitable for applications in the food industry, including emulsification and extraction processes.
- How does ultrasonic cavitation work? Ultrasonic cavitation involves creating microbubbles in a liquid that collapse to produce shock waves, aiding in particle dispersion and cell disruption.
- What is the warranty period? We offer a 1-year warranty with options to extend based on customer needs.
- What are the power requirements? All models operate on a standard 220V power supply, suitable for most laboratory setups.
- How long can the device operate continuously? Our sonicators are designed for long hours of operation with minimal maintenance required.
- Are replacement parts readily available? Yes, we stock a comprehensive range of replacement parts to ensure uninterrupted service.
- How do I know if the sound intensity is optimal? The digital generator automatically adjusts frequency to maintain optimal sound intensity.
Product Hot Topics
- Discussing Efficiency of Sonicator Ultrasonic in CBD Extraction The application of sonicator ultrasonic devices in CBD extraction has revolutionized the industry with efficient cell disruption and compound extraction processes. The high intensity sound waves break down cell walls effectively, ensuring maximum yield and purity...
- Advancements in Nanotechnology through Sonicator Ultrasonic The role of sonicator ultrasonic processors in advancing nanotechnology cannot be understated. Their ability to disperse nanoparticles uniformly enhances the study and application of materials across multiple sectors, from medicine to electronics. This technology facilitates precise control over particle size and distribution, leading to better material properties and innovative product development...
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